Signals of intense primary production in response to Ulva prolifera bloom in the Yellow Sea during summer 2021

The variability in changing climate has been predicted to lead to significant changes in the world's oceans primary productivity. Recent years have experienced more intense algal blooms during the spring-summer months in many coastal waters. Here we present results from the analysis of satellit...

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Bibliographic Details
Published in:Physics and chemistry of the earth. Parts A/B/C 2022-12, Vol.128, p.103257, Article 103257
Main Authors: Nukapothula, Sravanthi, Yunus, Ali P., Chen, Chuqun
Format: Article
Language:English
Subjects:
Nutricline depth
Sea surface temperature
Thermal fronts
Ulva prolifera algae
Wind speed
Yellow sea
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Summary:The variability in changing climate has been predicted to lead to significant changes in the world's oceans primary productivity. Recent years have experienced more intense algal blooms during the spring-summer months in many coastal waters. Here we present results from the analysis of satellite ocean color products from MODIS-Terra datasets during June 2 to July 20, 2021, corresponding to the most intense period of the Enteromorpha (Ulva) prolifera algae (U. prolifera) bloom in the Yellow Sea. Because the studies on sea surface temperature (SST) variability over the U. prolifera bloom have not yet been fully explored by satellite measurements in the offshore waters of Qingdao, China, we analyzed the MODIS SST and their relationship with the U. prolifera blooms in the 2021 summer months. Analysis of SST showed a variation in the range of 18–24 °C in near-shore waters in response to the bloom of green algae. We find that a significant thermal front with a gradient magnitude of 0.03 °C/km was developed over the shelf and offshore regions during the algal bloom period. The observed changes in thermal fronts are driven by high-wind speed and Ekman pumping-velocity processes. We concluded that the changes in SSTs with a range of 20–23 °C, high-magnitude thermal fronts and wind speed, and Ekman pumping velocity resulted in the intensification of the largest bloom of U. prolifera in the Yellow Sea during the study period. •Largest Ulva prolifera bloom coverage in Yellow Sea was observed in 2021.•Sea surface temperature in the range of 20–24 °C favored the bloom conditions.•Optimal wind forcing and Ekman pumping enhanced the algae growth of bloom.
ISSN:1474-7065
1873-5193
DOI:10.1016/j.pce.2022.103257